This study investigated the comparison of electromyographic change of neuromuscular blocking effect induced vecuronium between the ulnar, facial and tibial nerve in 24 healthy adult patients anesthetized with thiopental, N2O and enflurane. Neuromuscular monitoring commenced immediately after administration of thiopental. After supramaximal stimulation was achieved, a bolus of vecuronlum 0.08mg/kg was injected intravenously. And then single twitch nerve stimulation(T1) was applied to the nerves using surface electrodes and the electrical response of muscles recorded using the RELAXOGRAPH(Dates Co.). The patients were allocated randomly to 3 groups of 8 patients respectively: the ulnar nerve troup was the control, and the facial nerve group and the tibial nerve group were the studing group. We assessed electromyographic responses from abductor digiti minimi muscle in the ulnar nerve, orbicularis oris muscle in the facial nerve and flexor hallucis brevis muscle in the tibial nerve to single twitch nerve stimulation respectively. And the onset time, the time from injection of vecuronium to 25% and 75% recovery to T1, and recovery index of the ulnar, facial and tibial nerve groups were measured. The obtained results were as follos: 1) The onset time was faster in the facial nerve group compared with the ulnar nerve group. 2) The time from injection of vecuronium to 25% recovery of T1 was more prolonged in the facial nerve group compared with the ulnar nerve group. 3) The time from injection of vecuronium to 75% recovery of T1 and recovery index were more shorter in the tibial nerve group compared with ulnar nerve group.
Adult ; Electrodes ; Enflurane ; Facial Nerve ; Humans ; Muscles ; Neuromuscular Blockade ; Neuromuscular Monitoring ; Thiopental ; Tibial Nerve* ; Ulnar Nerve ; Vecuronium Bromide*

BACKGROUND: This study was undertaken in order to investigate any cardiopulmonary changes caused by the surgical procedure during a Nuss operation in patients with pectus excavatum. METHODS: Thirty patients undergoing the Nuss operation were divided into two groups. The patients were randomly assigned to either Group-V (n = 15) which volume controlled ventilation was applied, or to Group-P (n = 15) where pressure controlled ventilation was applied. Mechanical ventilation provided a tidal volume to be set at approximately 10 ml/kg and a frequency set to keep ETCO2 in range, between 32 mmHg and 38 mmHg. During the surgical procedure, we recorded expired volume (VE) and inspired maximal pressure (Pmax) changes according to the ventilator mode, and then also recorded changes in vital signs. RESULTS: Heart rate and blood pressure had no significant changes in either groups. In Group-V, during rotation of the metal bar, there was a significant decrease in expired volume (P< 0.001), changes of inspired maximal pressure gradually increased with the operation (P< 0.001). In Group-P, rotation of the metal bar caused a significant decrease in expired volume (P< 0.001). CONCLUSIONS: During the Nuss operation, there should be careful observation of changes in the vital signs, expired volume and maximal pressure during insertion and rotation of the metal bar.
Blood Pressure ; Funnel Chest* ; Heart Rate ; Humans ; Respiration, Artificial ; Tidal Volume ; Ventilation* ; Ventilators, Mechanical ; Vital Signs*

BACKGROUND: Lidocaine, verapamil or a lidocaine-verapamil mixture was effectively applied for blunting extubation during recovery from anesthesia. However, these drugs can enhance neuromuscular blockade and cardiovascular depression. We investigated the neuromuscular and the cardiovascular effect of lidocaine, verapamil or a lidocaine-verapamil mixture before extubation in the recovery from anesthesia. METHODS: We studied ninety nine healthy adult patients (ASA class I or II), excluding the patients with cardiovascular diseases and with factors affecting neuromuscular function. Induction of anesthesia was performed with thiopental sodium 5 mg/kg and fentanyl 0.1 mg, and maintained with O2-N2O (50%)-enflurane (2%). Supramaximal single twitch stimuli (0.1 Hz) were applied to the ulnar nerve and the twitch response of the adductor pollicis was recorded by the Gould TA 240 recorder via a 2 kg Load Cell Strain Gauge modification. After stabilization of the twitch response, mivacurium (0.16 mg/kg) or vecuronium (0.1 mg/kg) was administered intravenously and endotracheal intubation was performed. Twitch heights were spontaneously recovered without a reversal agent from the neuromuscular blockade as a spontaneous group. Pyridostigmine 10 mg and glycopyrrolate 0.2 mg were administered intravenously around the time of 10% recovery of baseline twitch height as a reversal recovery group. At the time of 100% recovery of twitch height, train of four (TOF) stimuli was applied and then lidocaine, verapamil or a lidocaine-verapamil mixture was administered intravenously in both groups. Maximum depression of twitch height and the TOF ratio at this point, recovery index (RI) measured, and mean arterial pressure and pulse rates were measured before and at 2, 5, 10, 20 and 30 min. after the lidocaine-verapamil mixture administration. RESULTS: Twitch heights were depressed slightly after lidocaine, verapamil or a lidocaine-verapamil mixture administration; however, there were no significant differences to compare with the control. TOFratios were unchanged after lidocaine, verapamil or lidocaine-verapamil administration compared at the 100% twitch height recovery. RI indices were not significant between groups in reversal recovery or in spontaneous recovery. Mean arterial pressure was reduced significantly until 20 min after a lidocaine-verapamil mixture administration, pulse rates were increased at 2 min only after a lidocaine- verapamil mixture administration. CONCLUSIONS: Twitch height and TOF ratios were not affected by clinical doses of lidocaine, verapamil or a lidocaine-verapamil mixture. However, mean arterial pressure and pulse rates were changed significantly by a lidocaine-verapamil mixture.
Adult ; Anesthesia ; Arterial Pressure ; Cardiovascular Diseases ; Depression ; Fentanyl ; Glycopyrrolate ; Heart Rate ; Humans ; Intubation, Intratracheal ; Lidocaine* ; Neuromuscular Blockade* ; Pyridostigmine Bromide ; Thiopental ; Ulnar Nerve ; Vecuronium Bromide ; Verapamil*